KR102020858B1 - A Pneumatic Neo Fender and its manufacturing method - Google Patents

Abstract

The present invention relates to a pneumatic neo fender and a manufacturing method thereof, which are able to prevent a side plating from being damaged and to relieve an impact when it comes in contact with an obstacle, and more specifically, to a pneumatic neo fender and a manufacturing method thereof, which are able to prevent an external shape from being deformed in a manufacturing process, to have a light weight, and to reduce a manufacturing unit cost. That is, the present invention is able to form an external protective layer made of polyurea, to minimize the generation of corrosion even if it is exposed outdoors for a long time, and to perform a function of the fender without making the external side of the ship dirty even if there occurs a friction with a side of the ship. The present invention is able to evenly perform a relieving function by using the air, to be composed of an internal air protective layer, a reinforcing layer, and an external protective layer to have a light weight, and to reduce a manufacturing unit cost. In addition, the present invention is able to form a hollow pipe in the center, to rotate the hollow pipe while fixating both side surfaces of the hollow pipe on a rotary shaft of a jig, and to perform a work with the center fixated in a stable manner without being loose when the internal air protective layer is being wrapped around by a reinforcing member.

Description

Pneumatic Neo Fender and its manufacturing method

The present invention relates to a pneumatic neo fender and a method of manufacturing the same for preventing damage to the side shell plate and to reduce the impact on contact, more specifically, the appearance can be prevented from being deformed during the manufacturing process, light weight and manufacturing It relates to a pneumatic neo fender capable of reducing the unit cost and a manufacturing method thereof.

A common fender is to be installed on the ship and the quay to prevent damage to the side shell plating when the ship comes into contact with the quay or other vessels and to mitigate the impact of the ship.

As the prior art of the fender, a plurality of protrusions are formed on the outer surface of the cylindrical body, as shown in Korean Patent Publication No. 10-1356563, the outer wall of the synthetic rubber material and a plurality of After stacking the reinforcement pouch and the inner skin of synthetic rubber material in sequence, the molds are fastened to each other, and then the fastened mold is put into the chamber to inject steam into the chamber, so that the outer skin and the inner skin of the synthetic rubber material and the reinforcement papers stacked in a plurality are integrated. It is formed so as to form a groove on the inner wall surface of the mold by cutting the synthetic rubber into the groove portion, and laminated the shell and a plurality of reinforcing bags and the inner skin in sequence, by injecting steam into the chamber containing the mold The outer surface of the outer shell is formed integrally with the projection of the same material as the outer shell.

In the prior art fenders constructed as described above, when the ship contacts with the ship or in the inner wall, the outer shell of the ship is in close contact with the outer shell of the fender due to the pressure of the ship, and the outer shell of the fender made of rubber slides on the outer shell. Friction occurs in the outer shell layer made of rubber and melted and buried on the side shell, which has a problem that frequent maintenance work because the side of the ship is not good appearance.

In addition, since the fender is exposed in a natural state, there is a problem that the outer skin layer of the fender is corroded and the elasticity of the rubber is lost, and the surface of the fender is cracked as in the Korean Utility Model Publication No. 20-0480505. There have been a number of problems, such as loss of functionality or degradation, and shorter replacement times.

As another prior art of fenders, a nylon fiber and an elastic sheath are laminated on the outer side of a urethane foam having a hole as in Korea Utility Model No. 20-0362746 to form a body, and the hole of the body has a chain and both ends of the chain. The cap and the support tube fixed on the support tube are inserted into the support tube and the flange is fixed to the flange, and the manufacturing cost can be increased by filling the urethane foam inside, and the friction and cushioning occur in the fender. Since the buffering phenomenon occurs only in the designated area and the buffering phenomenon does not occur in the site without the buffering phenomenon, the wear phenomenon is different according to the used part, and thus there is a problem in that the use efficiency is inferior.

KR 10-1356563 B1 2014.01.28. KR 20-0362746 Y1 2004.09.22. KR 20-0480505 Y1 2016.06.01.

Accordingly, the present inventors have developed and researched to solve the problems of the conventional fenders, and in the present invention, the buffering function does not occur and the entire fenders are evenly buffered so that the entire fender does not occur. Technical features to provide a pneumatic neo-fence and its manufacturing method to increase the function, to prevent the appearance appearance damage in the process of buffering the fender, and to reduce the weight and manufacturing cost The present invention has been completed.

In the present invention as a means for solving the problem and the hollow tube formed with a plurality of air injection holes on the outer peripheral surface between the flanges on both sides; A body configured at an outer side of the hollow tube to be fixed to both flanges and having an air storage space therein; It is disposed on the side of the flange comprises a fixing flange configured to fix the body.

In another aspect, the body in the present invention, the shape of the body is used as a form so that the shape of the body can be produced, the end portion is fixed to the flange of the hollow tube to prevent the internal air outflow; An internal air protection layer formed on the surface of the shape maintaining layer; A reinforcing layer composed of a reinforcing member wound on a surface of the inner air protective layer to protect the inner air protective layer and maintain air pressure; It is configured to include; an outer protective layer configured by applying any one of the polyurea or ultra-high molecular PE to the surface of the reinforcing layer is applied to a predetermined thickness.

In another aspect of the present invention, the reinforcing member is used by selecting any one of a nylon thread, a tire cord, or an iron core.

As another means for solving the problem, the reinforcing layer in the present invention is configured by winding while spraying polyurea to any one of the reinforcing member of the nylon thread, tire cord paper or iron core.

In another aspect of the present invention, the internal air protection layer is configured by selecting either silicon or rubber.

In another aspect, the present invention provides a hollow tube forming step of forming a hollow tube to form a flange on both sides, the air injection hole is formed on the outer peripheral surface between the two flanges; A shape holding layer forming step of fixing an end portion of the shape holding layer formed by cutting the cloth in the shape of a body to the flange of the hollow tube, and then fixing the shape holding layer by coupling a fixing flange to the side of the flange; A hollow tube installation step of installing the sealant on the rotary shaft of the jig so that the hollow tube can be rotated and installing a swivel for air injection on one of the rotary shafts; Forming an internal air protection layer by injecting air into the hollow tube with the swivel and applying silicon to the surface of the shaped shape holding layer so that the shape holding layer swells and the body is manufactured; A reinforcing layer forming step of rotating the hollow tube installed on the rotary shaft of the jig and winding the reinforcing member on the surface of the inner air protection layer while continuously injecting air with the swivel; An outer protective layer forming step of forming an outer protective layer by selecting any one of polyurea or ultra high molecular PE and applying it to the surface of the reinforcing layer so that the reinforcing member is protected without being exposed to the outside; And separating the rotating shaft from the hollow tube while the outer protective layer is sufficiently cured, and assembling a swivel at both ends of the hollow tube.

In another aspect, the present invention provides a hollow tube forming step of forming a hollow tube to form a flange on both sides, the air injection hole is formed on the outer peripheral surface between the two flanges; A shape holding layer forming step of fixing an end portion of the shape holding layer formed by cutting the cloth in the shape of a body to the flange of the hollow tube, and then fixing the shape holding layer by coupling a fixing flange to the side of the flange; A hollow tube installation step of installing the sealant on the rotary shaft of the jig so that the hollow tube can be rotated and installing a swivel for air injection on one of the rotary shafts; Forming an internal air protective layer by injecting air into the hollow tube with the swivel and attaching rubber to the surface of the shaped shape holding layer so that the shape holding layer swells and the body is manufactured; A reinforcing layer forming step of rotating the hollow tube installed on the rotary shaft of the jig and winding the reinforcing member on the surface of the inner air protection layer while continuously injecting air with the swivel; An outer protective layer forming step of forming an outer protective layer by selecting any one of polyurea or ultra high molecular PE and applying it to the surface of the reinforcing layer so that the reinforcing member is protected without being exposed to the outside; A fusion step of injecting steam into the inside of the hollow tube through the swivel in a state where the outer protective layer is sufficiently cured to be fused with the inner air protective layer and the formation holding layer; And separating the rotating shaft from the hollow tube and assembling the swivel at both ends of the hollow tube.

In another aspect, the present invention is to provide a jig to the upper and lower parts of the inner air protective layer in the step of forming a reinforcing layer is configured to wind the reinforcing member; The support jig is installed to support the curved surface of the inner air protection layer.

In the present invention, the pneumatic neo-fence can form an outer protective layer to minimize the occurrence of corrosion even when exposed to the outside for a long time, even if friction with the side, there is no phenomenon that the polyurea peels off or melts on the side There is no staining and it can provide the effect which can preserve a ship side appearance cleanly.

The present invention provides an aero buffer function injected into the interior, consisting of a shape holding layer, an internal air protective layer, a reinforcing layer and an outer protective layer can provide light weight and convenience of movement, manufacturing process is easy and manufactured The effect which can reduce a unit price can be provided.

In the center of the present invention, the hollow tube is configured to rotate in a state in which both sides of the hollow tube are fixed to the rotating shaft, and the center is not disturbed when the reinforcing member selected any one of the nylon seal, the tire cord paper or the iron core is wrapped in the inner air protective layer. Work can be carried out in a stable state.

The present invention can provide an effect of forming a shape maintaining layer to prevent the internal air protection layer from sagging downward due to its own weight.

In the present invention, the upper and lower support jig may be configured to provide an effect of preventing the internal air protective layer from sagging downward while winding the reinforcing member.

By constructing the side support jig in the present invention can be provided to the side by the pressure of the air injected into the reinforcing member is wound to the side to provide an effect that can prevent the appearance deformation.

1 is a view showing a configuration of a pneumatic neo-fence provided by the present invention
Figure 2 is a cross-sectional view showing the configuration of the pneumatic neo-fence provided by the present invention
Figure 3 is a view showing the manufacturing process of the pneumatic neo-fence provided by the present invention
Figure 4 is a view of another embodiment showing the manufacturing process of the pneumatic neo-fence provided by the present invention
Figure 5 is a view of another embodiment showing the manufacturing process of the pneumatic neo-fence provided by the present invention
Figure 6 is a view showing the operating state of the jig and support jig

DESCRIPTION OF EMBODIMENTS The following clearly and completely describes the technical solutions in the embodiments of the present invention by combining the accompanying drawings in the embodiments of the present invention. Of course, the described embodiments are merely preferred embodiments of the present invention, but not all of them. In accordance with embodiments of the present invention, all other embodiments obtained by a person of ordinary skill in the art without creative labor are all within the protection scope of the present invention.

EMBODIMENT OF THE INVENTION Hereinafter, the structure of this invention is demonstrated based on an accompanying drawing.

1 is a view showing the configuration of the pneumatic neo-fence provided by the present invention, Figure 2 is a cross-sectional view showing the configuration of the pneumatic neo-fence provided by the present invention.

The present invention is to be installed on the vessel and the inner wall to prevent damage to the side shell plate when the vessel is in contact with the inner wall or other vessels and to mitigate the impact at the time of contact, it consists of a hollow tube 10 and the body (2).

The hollow tube 100 is formed as a cylindrical tube, the flange 11 is formed on both sides, several air injection holes (10a) are formed so that air or steam can be injected into the outer peripheral surface between the two flanges (11) The outer body 2 is formed in an elliptic shape.

On the side of the flange 11 is formed a fixing flange 12 to fix the body (2).

The body (2) forms an air storage space (3) therein for storing and injecting air to be restored to the original form after the shape is deformed by the pressure pressed on the outside of the vessel, the shape maintaining layer on the inner surface (2a), an inner protective layer 2b and a reinforcing layer 2c, and an outer protective layer 2d is formed on the outer surface.

The shape-retaining layer (2a) is composed of a cloth, which is used as a template to manufacture the present invention in the shape of the body 2 in the manufacturing process, it can prevent the internal air outflow, the surface The internal air protection layer 2b is constituted.

The internal air protection layer (2b) is configured by selecting any one of silicon or rubber, the phenomenon that the air stored in the air storage space (3) is leaked in the process of deformation of the shape of the body (2) by the external pressure In order to prevent this, the reinforcing layer 2c is formed on the surface.

The reinforcing layer (2c) is to block the internal air protection layer (2b) to the outside to prevent the phenomenon of corrosion, to prevent cracking in the process of deformation of the form by the pressure of the outside, to absorb shock, and to store the air The reinforcing member 2c-1 is wound up to maintain the air pressure stored in the space 3, and the outer protective layer 2d is formed on the surface.

The reinforcing member (2c-1) is configured by winding any one of the nylon thread, tire cord paper or iron core to the surface of the internal air protection layer (2b), if necessary to the surface of the reinforcing member (2c-1) It can be wound on the surface of the internal air protection layer 2b in the state which applied polyurea.

The outer protective layer (2d) is composed of a polyurea or ultra-high molecular PE (polyethylene: polyethylene) by applying a predetermined thickness, and because the surface is slippery friction in the process of the fender is pressed by the outside of the ship It can be minimized, so that there is no peeling or melting of the surface, so that polyurea does not adhere to the outside of the ship, and the paint layer on the outside of the ship can be protected and the appearance can be kept clean.

The polyurea (Polyurea) is a fast curing type that can be dried in 2 to 3 seconds when applied quickly, good adhesion, excellent waterproofing, can prevent corrosion even if leaking outdoors, cracks There is a function that can be prevented, there is an advantage that the user can select the desired color.

When the swivel 20 is connected to both ends of the hollow tube 10 and connected to the chain formed on the inner wall or the ship side, the present invention is completed.

3 is a view showing a manufacturing process of the pneumatic neo-fence provided by the present invention.

 3 is related to the manufacturing method of the fender 1, the hollow tube 10 forming step, the shape holding layer (2a) forming step, the hollow tube 10 installation step, the internal air protective layer (2b) forming step , To be manufactured by the reinforcing layer (2c) forming step, the outer protective layer (2d) forming step, the swivel 20 assembly step, each step will be described in more detail below.

① Hollow tube (10) forming step (S100)

: Hollow tube 10 is formed of a cylindrical tube, the flange 11 is formed on both sides, several air injection holes (10a) are formed so that air or steam can be injected into the outer peripheral surface between the two flanges (11) do.

② Form holding layer (2a) forming step (S200)

: Shape retaining layer (2a) is formed by cutting the cloth in the shape of the body (2), and fixed to the end of the shape retaining layer (2a) to the flange 11 of the hollow tube 10, the flange 11 Into the side of the fixed by coupling the fixed flange 12, injecting air into the hollow tube (10) flows into the interior of the shape holding layer (2a) through the air injection hole (10a) and swells the body (2) Shape retaining layer (2a) is formed to be moldable to be manufactured.

③ Hollow pipe 10 installation step (S300)

: It is installed to be sealed to the rotating shaft 110 of the jig 100 so that the hollow tube 10 can be rotated, the swivel 110a for air injection on one side of the rotation.

④ Internal air protective layer (2b) forming step (S400)

: By injecting air into the hollow tube (10a) with a swivel (110a) by applying a silicon on the surface of the shape-shaped holding layer (2a) so that the shape holding layer (2a) swells to make the body (2) The internal air protection layer 2b is formed to prevent the air in the shape holding layer 2a from leaking out.

⑤ reinforcing layer (2c) forming step (S500)

: The reinforcing member 2c-1 is wound when the rotating shaft 100 is rotated while continuously injecting air into the swivel 110a on the surface of the inner air protective layer 2b, and the reinforcing member 2c-1 is At the time of winding, the polyurea is sprayed and applied at the same time so as to be wound without pores between the wound reinforcing members 2c-1, and the reinforcing members 2c-1 are in close contact with each other and are not detached and are firmly secured to the internal air protective layer 2b. It will be in close contact with the surface of the cold.

The reinforcing member (2c-1) is used by selecting any one of a nylon thread, tire cord paper or iron core.

And it can be configured to wind using only the reinforcing member (2c-1) on the surface of the inner air protective layer (2b).

⑥ forming the outer protective layer (2d) (S600)

: On the surface of the reinforcing member 2c-1 and the reinforcing layer 2c formed of polyurea, one of polyurea or ultrahigh molecular PE is selected so that the reinforcing member 2c-1 is not exposed to the outside and protected. The coated outer protective layer 2d is formed.

⑦ Leveling of the swivel (20) (S700)

: When the outer protective layer (2d) is sufficiently cured in the state that the rotary shaft 110 of the jig 100 is separated from the hollow tube 10, the swivel 20 is assembled to both ends of the hollow tube 10, The manufacturing method of the invention is completed.

Figure 4 shows a view of another embodiment showing the manufacturing process of the pneumatic neo-fence provided by the present invention.

Figure 4 is another embodiment of the manufacturing method of the pneumatic neo fender (1), the hollow tube 10 forming step, the shape holding layer (2a) forming step, hollow tube 10 installation step, internal air protective layer ( 2b) in the forming step, the reinforcing layer (2c) forming step, the outer protective layer (2d) forming step, the flange 20 assembling step, the manufacturing step further comprises a fusion step,

④-1 Internal air protective layer (2b) forming step (S410)

: The inner air protective layer 2b is formed to attach rubber to the surface of the shaped shape holding layer 2a to prevent the air in the shape holding layer 2a from leaking out.

⑤-1 reinforcing layer (2c) forming step (S520)

: The reinforcing member 2c-1 is wound when the rotating shaft 110 is rotated while continuously injecting air into the swivel 110a on the surface of the inner air protective layer 2b, and the reinforcing member 2c-1 is At the time of winding, the polyurea is sprayed and applied at the same time so as to be wound without pores between the wound reinforcing members 2c-1, and the reinforcing members 2c-1 are in close contact with each other and are not detached and are firmly secured to the internal air protective layer 2b. It will be in close contact with the surface of the cold.

The reinforcing member (2c-1) is used by selecting any one of a nylon thread, tire cord paper or iron core.

And it can be configured to wind using only the reinforcing member (2c-1) on the surface of the inner air protective layer (2b).

⑥-1 outer protective layer (2d) forming step (S610)

: On the surface of the reinforcing member 2c-1 and the reinforcing layer 2c formed of polyurea, one of polyurea or ultrahigh molecular PE is selected so that the reinforcing member 2c-1 is not exposed to the outside and protected. The coated outer protective layer 2d is formed.

⑦-1 Fusion step (S620)

: Steam inside the hollow tube 10 so that the rubber of the inner air protective layer 2b can be fused to the reinforcing layer 2c and the shape-retaining layer 2a while the outer protective layer 2d is sufficiently cured. It is injected by heat welding to make it more firmly attached.

⑧-1 Swivel 20 assembly step (S710):

: When the rotating shaft 110 of the jig 100 is separated from the hollow tube 10, and the swivel 20 is assembled at both ends of the hollow tube 10, the manufacturing method of the present invention is completed.

Figure 5 shows a view of another embodiment showing the manufacturing process of the pneumatic neo-fence provided by the present invention, Figure 6 shows a view showing the operating state of the jig and support jig.

Figure 5 is another embodiment of the manufacturing method of the pneumatic neo-fence (1), the hollow tube 10 forming step, the shape holding layer (2a) forming step, hollow tube 10 installation step, internal air protective layer ( 2b) in the forming step, the reinforcing layer (2c) forming step, the outer protective layer (2d) forming step, the swivel 20 assembling step, and further comprising a jig installation step,

⑤-2 jig installation step (S420)

: When the reinforcing member (2c-1) is wound around the inner air protective layer (2b) in the step of forming a reinforcing layer (S500) (S510) or the pressure of the air stored in the inside of the inner air protective layer (2b) The jig 120 is installed above and below the internal air protection layer 2b to prevent the internal air protection layer 2b from lowering or sagging due to the weight of 2b) and to support the internal air protection layer 2b. .

The jig 120 is operated so that the reinforcing member 2c-1 can move backwards by the width of the reinforcing member 2c-1 when the reinforcing member 2c-1 is wound around the internal air protection layer 2b, and reinforcement to the opposite side. When the member 2c-1 is wound, the winding moves forward by the width.

The side surface of the inner air protective layer (2b) is formed of a curved surface (C), because the inner air protective layer (2b) is pressed when the reinforcing member (2c-1) is wound inside the inner air protective layer (2b) Since the air may be concentrated on the curved surface C by the air pressure, and the outer shape may be deformed, so that the curved surface C opposite to the inner air protective layer 2b to which the reinforcing member 2c-1 is wound may be prevented. Form a supporting jig 130 to support).

When the support jig 130 is wound around the reinforcing member 2c-1 while moving backward by the width of the reinforcing member 2c-1, the manufacturing method of another embodiment of the present invention is completed.

As such, the present invention can minimize the occurrence of corrosion even when exposed to the outdoors for a long time by forming the outer protective layer (2d) with polyurea, and even if the friction with the ship side can perform the function of the fender without fouling the outside of the ship It can be.

In addition, the present invention can perform the buffer function evenly by the air, it is composed of a shape holding layer (2a), the inner air protective layer (2b), the reinforcing layer (2c) and the outer protective layer (2d) light and easy to move The manufacturing cost can be reduced.

In addition, the hollow tube 10 is configured in the center of the present invention while the reinforcing member 2c- is provided in the inner air protective layer 2b while rotating in a state where both sides of the hollow tube 10 are fixed to the rotation shaft 110 of the jig 100. When winding 1), work can be carried out in a stable state without distracting the center.

In addition, in the present invention, the shape maintaining layer 2a is configured to prevent the internal air protection layer 2b from sagging downward due to its own weight.

The present invention can provide an effect that can prevent the deformation of the internal air protection layer (2a) and to prevent the deflection to the lower portion of the upper jig 120 to wind the reinforcing member (2c-1).

In the present invention, the side support jig 130 is configured to be wound toward the curved surface C by the pressure of the air injected into the inside of the reinforcing member 2c-1 to prevent the deformation of the outer shape.

And the present invention can be used by combining the swivel 20 is configured with a hollow tube 10, if necessary, the speed and convenience that can be used by inserting the chain installed in the vessel and the inner wall of the hollow tube 10 To provide.

And in the present invention has been described with reference to the drawings of fenders, buoyant and buoyant buoyant material used to protect the offshore structure, if necessary, may also be produced and used by the manufacturing method of the present invention.

The foregoing is merely a preferred embodiment formed by the slight improvement of the present invention, and is not intended to limit the present invention, and any equivalent or equivalent change, or combination not shown herein, which has been carried out with respect to the improvement of the present invention are all It should be included within the protection scope of the present invention.

1: (air neo) fender 2: body
2a: shape maintaining layer 2b: internal air protection layer
2c: reinforcing layer 2c-1: reinforcing member
2b: outer protective layer
3: air storage space 4: coupling hole
10: hollow tube 10a: air injection hole
11: flange
12: fixed flange 20: swivel
100: jig 110: rotation axis
110a: swivel
120: jig 130: support jig

Claims (10)

delete A hollow tube 10 having flanges 11 formed on both sides, and several air injection holes 10a formed on the outer circumferential surface between the flanges 11 on both sides;
A body (2) configured on the outside of the hollow tube (10) to be fixed to both flanges (11) and having an air storage space (3) therein;
A fixing flange 12 disposed on a side of the flange 11 and configured to fix the body 2;
The body 2 is used as a form so that the shape of the body 2 can be manufactured, the end is fixed to the flange 11 of the hollow tube 10 to prevent the internal air outflow Holding layer 2a;
An internal air protection layer (2b) formed on the surface of the shape maintaining layer (2a);
A reinforcing layer (2c) composed of reinforcing members (2c-1) wound on the surface of the inner air protection layer (2b) to protect the inner air protection layer (2b) and maintain air pressure;
Pneumatic neo-fence characterized in that it comprises ;; an outer protective layer (2b) configured by selecting any one of the polyurea or ultra-polymer PE on the surface of the reinforcing layer (2c) and applied to a predetermined thickness.
The method according to claim 2,
The reinforcing member (2c-1) is pneumatic neo-fence, characterized in that used to select any one of a nylon thread, tire cord paper or iron core.
The method according to claim 2,
The pneumatic neo-fence is characterized in that the reinforcing layer (2c) is formed by winding while spraying polyurea to any one of the reinforcing member (2c-1) of nylon yarn, tire cord paper or iron core.
The method according to claim 2,
The pneumatic neo-fender characterized in that the shape-retaining layer (2a) is made of cloth.
The method according to claim 2,
The inner air protective layer (2b) is a pneumatic neo fender, characterized in that configured by selecting any one of silicone or rubber.
Forming a hollow tube (11) on both sides, and forming a hollow tube (10) to form a plurality of air injection holes (10a) on the outer circumferential surface between the two flanges (11); (S100)
After fixing the end of the shape holding layer (2a) formed by cutting the cloth in the shape of the body (2) to the flange (11) of the hollow tube 10, the fixed flange 12 on the side of the flange (11) Forming a shape holding layer (2a) for fixing the shape holding layer (2a) by combining; (S200)
Installing the hollow tube 10 to be sealed to the rotating shaft 110 of the jig 100 so that the hollow tube 10 can be rotated and to install a swivel 110a for air injection to one side of the rotating shaft 110 (S300)
By injecting air into the hollow tube (10a) by the swivel (110a) by applying a silicon to the surface of the shape-shaped holding layer (2a) to be shaped so that the shape holding layer (2a) swells the body (2) Formed internal air protective layer (2b) forming step; (S400)
The reinforcing member 2c-1 is wound on the surface of the inner air protective layer 2b while rotating the hollow tube 10 installed on the rotary shaft 110 of the jig 100 and continuously injecting air into the swivel 110a. Reinforcing layer (2c) forming step configured; (S500)
An outer protective layer in which the outer protective layer 2d is formed by selecting any one of polyurea or ultra high molecular PE and applying the surface to the reinforcing layer so that the reinforcing member 2c-1 may be protected without being exposed to the outside. 2d) forming step; (S600)
Separating the rotary shaft 110 from the hollow tube 10 in a state where the outer protective layer 2d is sufficiently cured, and assembling the swivel 20 at both ends of the hollow tube 10; (S700) Pneumatic neo fender manufacturing method characterized in that made.
Forming a hollow tube (11) on both sides, and forming a hollow tube (10) to form a plurality of air injection holes (10a) on the outer circumferential surface between the two flanges (11); (S100)
After fixing the end of the shape holding layer (2a) formed by cutting the cloth in the shape of the body (2) to the flange (11) of the hollow tube 10, the fixed flange 12 on the side of the flange (11) Forming a shape holding layer (2a) for fixing the shape holding layer (2a) by combining; (S200)
Installing the hollow tube 10 to be sealed to the rotating shaft 110 of the jig 100 so that the hollow tube 10 can be rotated and to install a swivel 110a for air injection to one side of the rotating shaft 110 (S300)
By injecting air into the hollow tube (10a) by the swivel (110a) by attaching rubber to the surface of the shape-shaped holding layer (2a) to be shaped so that the shape holding layer (2a) swells the body (2) Forming the internal air protective layer (2b) configured; (S410)
The reinforcing member 2c-1 is wound on the surface of the inner air protective layer 2b while rotating the hollow tube 10 installed on the rotary shaft 110 of the jig 100 and continuously injecting air into the swivel 110a. Forming reinforcing layer (2c) forming step; (S510)
An outer protective layer in which the outer protective layer 2d is formed by selecting any one of polyurea or ultra high molecular PE and applying the surface to the reinforcing layer so that the reinforcing member 2c-1 may be protected without being exposed to the outside. 2d) forming step; (S610)
When the outer protective layer 2d is sufficiently cured, steam is injected into the hollow tube 10 through the swivel 110a to be fused with the inner air protective layer 2b and the formation holding layer 2a. Fusion step to; (S620)
Separating the rotating shaft 110 from the hollow tube 10, assembling the swivel 20 to both ends of the hollow tube 10; (S710) pneumatic neo-fence manufacturing method characterized in that it comprises a .
The method according to claim 7 or 8,
Pneumatic neo-bang, characterized in that during the winding of the reinforcing member (2c-1) in the step of forming the reinforcing layer (2c) is sprayed without spraying the pore between the reinforcing member (2c-1) is wound and applied at the same time while spraying polyurea Current manufacturing method.
The method according to claim 7 or 8,
In the forming step of the reinforcing layer (2c) is installed jig 120 in the upper and lower portions of the internal air protection layer (2b) to configure the reinforcing member (2c-1) is wound;
A method of manufacturing a pneumatic neo-fence, characterized in that the reinforcing member (2c-1) is installed to support the curved surface (C) of the inner air protective layer (2b) to be wound.

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